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NEW CROPS FOR INTERCROPPING<br>Two New Crops With Good Potential To Supplement Rubber Smallholdersu2019 Incomes:<br><br>Although rubber trees have since become major export commodities for many countries, more research in plants could discover new crop plants with good potential to supplement rubber smallholders incomes.<br>It is important to revisit our approach to agriculture, with the aim of providing small holders with more solutions to generate additional income.
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IRRDB 2019 International Rubber Conference Nay Pyi Taw, Myanmar, 30 Sept - 2 Oct 2019 Two New Crops With Good Potential To Supplement Rubber Smallholders’ Incomes Mohamad Osman1, Zulkefly Sulaiman2, Zulkifli Mohd. Zainuddin3, Mohd. Shahril Abdul Rahman2, Zainal Mohamad4, Maizura Abu Sin2, Azimah Hamidon5, and Halimaton Saadiah Othman6 1 - Formerly with Dept. of Crop Science, Faculty of Agriculture, Universiti Putra Malaysia, Serdang, Selangor, Malaysia; presently with Atri Advisory, Kuala Lumpur 2 - Departmentof Crop Science, Facultyof Agriculture, UniversitiPutra Malaysia, Serdang, Selangor, Malaysia 3 - Formerly with Malaysian AgriculturalResearch andDevelopmentInstitute, Serdang, Selangor,Malaysia 4 - Faculty of Science and Technology, Bangi, Selangor, Malaysia 5 - Schoolof Food Science and Technology, UniversitiMalaysia Terengganu,Kuala Terengganu, Terengganu, Malaysia 6 - Kulliyyah of Science, InternationalIslamic University of Malaysia, Kuantan, Pahang, Malaysia Email: mbopar2004@yahoo.com
THE RUBBER INDUSTRY IN ASEAN The Asia-Pacific has been the largest rubber consuming region since 1986 due to its economic and population growth. The Asia-Pacific currently accounts for 57% of global rubber demand and will remain the world’s strongest growth market for rubber. About one third of total global rubber consumption is natural rubber produced in plantations in Thailand, Indonesia and Malaysia, as well as in parts of West Africa and Central America. Thailand, Indonesia and Malaysia are the top three producers of natural rubber in the world. Thailand is the world’s largest producer and exporter of natural rubber. Thailand produces about three million tons a year, 40% of global production.
NEW CROPS FOR INTERCROPPING Although rubber trees have since become major export commodities for research in plants could discover new crop plants with good potential smallholders’ incomes. many countries, more to supplement rubber It is important to revisit our approach to agriculture, with the aim of providing small holders with more solutions to generate additional income.
TWO NEW CROPS WITH GOOD POTENTIAL Gac fruit Jerusalem artichoke
GAC FRUIT • Gac is a fruit (Momordica cochinchinensis, family Cucurbitaceae) native to South East Asia and is indigenous throughout Asia. grown for its medicinal and nutritional properties. • In Vietnam, served at ceremonial or festive occasions • dioecious vines which can grow up to 20 m long. • Propagated throughvine cuttings since germination by seed is very difficult • Flowering occurs about 2 to 3 monthsafter planting • Fruit typically round or oblong, about 13 cm in length and 10 cm in diameter • Pollination maybe assisted by insects, but hand pollination resultsin a higher fruit yield • A plant can produce 30 to 60 fruits in one season. • Fruit colour progressively change from green to yellow, orange and finally red • The fruit is hard at harvest but rapidly turns soft, therefore poses problems with regard to transportationand shelf-life. • Itsexocarp (skin) is coveredwith small spines • The seeds are usually brown or black in colour, surrounded by dark red membraneous sacs (aril) • Gac fruit has a mild taste/flat tastetomany people • Used as food and for medicinal purposes due to its nutritional and medicinal properties • High content of beta-carotene(provitaminA) and lycopene • Fruit has begun to be commercially marketed in the form of dietary supplements such as Gac extractsin soft capsules or included in a juice blend
MATERIALS AND METHODS Evaluation of Gac plants are being carried out at three different locations since early 2017 until present. (a) Beginning in mid February 2017 twenty six female Gac plants and six male Gac evaluated at Field 10, Faculty of Agriculture, Universiti Putra Selangor Malaysia (UPM), Serdang, (b) Twenty four female gac plants and twelve male gac plants were evaluated in Bukit Kor, UMT from mid June 2018 until December 2018 (c) Fifteen female Gac plants and two male Gac plants evaluated since February 2019 at Kulliyyah of Science, IIUM, Kuantan The data collected were analysed using SAS computer package version 9.4
RESULTS AND DISCUSSION Figure 1: Gac plants were planted and trained using different trellis systems at (a) UPM, Serdang, (b) UMT, Kuala Terengganu, and (c) IIUM, Kuantan
RESULTS AND DISCUSSION Gac plants at UPM, Serdang
RESULTS AND DISCUSSION Gac plants at UMT, Kuala Terengganu
RESULTS AND DISCUSSION Gac plants at IIUM, Kuantan
RESULTS AND DISCUSSION - Cont Figure 2: Gac plants showing: (a) male flower, (b) young female flower, and (c) manual pollination.
RESULTS AND DISCUSSION - Cont Figure 3: Shape of Gac fruits harvested from plots in (a) UPM, Serdang, (b) UMT, Kuala Terengganu, and (c) IIUM, Kuantan.
RESULTS AND DISCUSSION - Cont Figure 4: A Gac fruit at ripe stage: (top) its skin, pulp, aril, and seeds at harvest, and (bottom) its oven-dried skin, pulp, aril, and seeds.
RESULTS AND DISCUSSION - Cont Table 1: Number of fruits harvested from five female plants in 10 months, 2017-2018 at UPM, Serdang (Maizura et al., 2018)
RESULTS AND DISCUSSION - Cont Table 2: Range values and mean for the variables studied on 30 Gac fruits at UPM, Serdang (Maizura et al., 2018)
RESULTS AND DISCUSSION - Cont Table 3: Gac fruits and their component characteristics from trial at IIUM, Kuantan
RESULTS AND DISCUSSION - Cont Gac fruit length (cm) and perimeter (cm) 16 14 12 Rounder fruits have higher number of seeds compared to the oval fruits 10 8 or Genetics ?? 6 4 2 0 UPM Serdang UMT K. Terengganu IIUM Kuantan Fruit length, cm Fruit perimeter, cm
RESULTS AND DISCUSSION - Cont Fresh Gac fruit weight, g 1400 1200 1000 800 600 400 200 0 UPM Serdang UMT K. Terengganu IIUM Kuantan Fruit weight (min), g Fruit weight (max), g
RESULTS AND DISCUSSION - Cont Contribution of parts in a Gac fruit, g & their lycopene contents, mg/g 400 350 300 250 200 150 100 The average value of lycopene found in skin, pulp, and aril were 119.1, 9.79 and 471.9 mg/g, respectively 50 0 UPM Serdang UMT K. Terengganu IIUM Kuantan Fresh skin weight, g Fresh pulp weight, g Fresh aril weight, g Fresh seed weight, g
RESULTS AND DISCUSSION - Cont Contribution of parts in a Gac fruit, g & their lycopene contents, mg/g 400 350 300 250 200 150 100 The average value of lycopene found in skin, pulp, and aril were 119.1, 9.79 and 471.9 mg/g, respectively 50 0 UPM Serdang UMT K. Terengganu IIUM Kuantan Fresh skin weight, g Fresh pulp weight, g Fresh aril weight, g Fresh seed weight, g
JERUSALEM ARTICHOKE • The Jerusalem artichoke(Helianthus tuberosus) • Also called sunchoke, is a species of sunflower • Native to centralNorth America • has long been cultivatedas a root vegetable • Herbaceous ‘perennial’ plant growing up to 3 m tall • Leaves have a rough, hairy texture • Flowers are yellow, produced in capitate flower heads akin to sunflower • Tubers are often elongated and uneven, typically up to 10cm long and 3 - 5cm thick, somewhat resembling a ginger root in appearance • Khon Kaen University, in Thailand has an active breeding programs for JA improvement • As a functionalfood crop in the tropics • Tubers contain high contents of carbohydrate inulin (up to 80%), which acts as a dietary fibre as well as plays an important role as a prebiotic that maintains suitablemicroorganisms in digastrics systems
Inulin Inulin is a natural soluble dietary fiber which has many health benefits, including the promotion of digestive health. Inulin is not digested or absorbed in the stomach. It goes to the bowels where bacteria are able to use it to grow. It supports the growth of a special kind of bacteria that are associated with improving bowel function and general health. How much inulin can you take a day? If you decide to supplement, begin with no more than 2-3 grams a day for at least 1-2 weeks. Then, slowly increase your intake by 1-2 grams at a time, until you're taking 5-10 grams a day. Most of the studies used 10-30 grams per day, gradually increasing over time.
MATERIALS AND METHODS Evaluationof Jerusalemartichoke • A study was initiated to evaluate a Jerusalem artichoke accession introdced from Khon Kaen University, Thailand under our local field conditions for agronomic traits, disease resistanceandfreshtuberyield • Field experiment(16mx 6.5m plot of loamy soil)in Field 15, Facultyof Agriculture,UPM • Planting durationfromearlyFebruary untilSeptember2019(7 months). • Tuberpieceswith activebudsandroots usedas plantingmaterials • At fourthleaf-sprouted(V4)stage,seedlingsweretransplanted • 1m x 1m plantingdistance • Supplementary irrigationwasapplied • NPK fertilizer (15:15:15) was applied at 30 days after transplanting (DAT) at a rate of 150 kg per ha. • Two-stagemeasurementsweretakenfor data analysis. (i) At the stage of tuber maturity, 20 plants in the plot were sampled randomly and were usedrecord/measureseveralparameters ofgrowthandyield (ii) All plants in an area of 12m x 6.5m were harvested, discarding both the border rows and diseasedplants.
Figure 5: Evaluation of Jerusalem artichoke accession at UPM, Serdang in Feb-Sept 2019: (a) seedlings from seed tubers, (b) evaluation plot, (c) plants after transplanting, (d) flower, (e) plants at bloom stage, (f) plants harvested for recording of parameters of growth and yield, (g) plant biomass consisting of fresh shoot and fresh tubers, (h) fresh tubers, and (i) fresh tubers stored in cold room at 10◦C.
RESULTS AND DISCUSSION Evaluation of Jerusalem artichoke • JA agronomic traits and yield productivity over four months’ crop duration (120 days) after field transplanting. • Based on the evaluation of 40 JA genotypes, the crop growth duration (i.e. days to maturity) were between 72.3 and 85.7 days. In comparison, the introduced JA accession was late by 40.0 to 66.0% (Puangbut et al., 2017). accession tested showed promising
RESULTS AND DISCUSSION - Cont Evaluation of Jerusalemartichoke (i) Averaged on an individual plant basis, the results showed that plant height was 133.6cm per plant, number of stems 2.5, number of branches 23.1, canopy diameter 86.2cm, plant biomass 2.72kg, fresh shoot weight 0.81kg, fresh tuber weight 1.92kg, and harvest index of 70.4%. • Puangbut et al. (2017) reported that the average plant height over 40 genotypes was approximately 45-50cm (ranged from 22 to 65cm). (Janket et al., 2013; Janket et al., 2016). • The findings indicate that the introduced JA accession was taller by about 167.0 to 197.0% (Puangbut et al., 2017).
RESULTS AND DISCUSSION - Cont Table 4: Field evaluation of parameters of growth and yield of a Jerusalem artichoke accession on an individual plant basis at UPM, Serdang.
RESULTS AND DISCUSSION - Cont Evaluation of Jerusalemartichoke (ii) biomass was 3.10kg per plant, fresh shoot weight 0.91kg, fresh tuber weight 2.18kg, and harvest index of 70.7% • In Thailand, Puangbut et al. (2017) reported four commercial JA genotypes, namely KT1, KT 2, KT 3 and KT 50-4, produced between 7.1 and 10.2 t/ha fresh tuber yield, while average fresh tuber yield hybridclones and 4 commercial cultivars was 6.4 t/ha (ranged from 1.8 to 16.6 t/ha). • It is estimated that the introduced JA accession produced high fresh tuber yield of 10.3 t/ha. Averaged on a plot basis, the results showed that plant of 47 Jerusalem artichoke
RESULTS AND DISCUSSION - Cont Table 5: Field evaluation of parameters of growth and yield of a Jerusalem artichoke accession on a plot basis at UPM, Serdang.
RESULTS AND DISCUSSION - Cont Evaluation of Jerusalem artichoke Stem and root rot incidence were observed, infecting about 10 percent of the plants in the plot; however, the casual fungi have yet to be identified.
CONCLUSION • Although rubber trees have since become major export commodities for many countries, more research in plants could discover new crop plants with good potential to supplement rubber smallholders’ incomes. Two new crops are presented so that small holders may consider them as additional crops for supplementary income. • In Malaysia, Gac fruit and Jerusalem artichoke are considered as newly introduced crops, as we currently have a deficit on their suitable varieties, crop performance and market products. Appropriate research and development on Gac fruit and Jerusalem artichoke would introduce to rubber smallholders and consumers with the two new crops, which hold good potential to augment rubber smallholders’ incomes. Further, Gac fruit and Jerusalem artichoke can considered as a super food resources to supply high quality carotenoids (lycopene) and zeaxanthin, and to supply inulin for the market, respectively. • But there is a prerequisite before seeing these two new crops making an impact on the rubber smallholders and consumers in the near future. There is, therefore, the need for more science-based information on the crop, particularly on their genetic improvement, production, product development and marketabilty.
ACKNOWLEDGEMENT The authors would like to acknowledge the support provided by: Faculty of Agriculture, Universiti Putra Malaysia (UPM) Faculty of Science and Technology, Universiti Kebangsaan Malaysia (UKM) School of Food Science and Technology, Universiti Malaysia Terengganu (UMT) • Kulliyyah of Science, International Islamic University of Malaysia (IIUM) Atri Advisory Plant Breeding Research Center for Sustainable Agriculture (PBRCSA) and Field Crop Research Station, Khon Kaen University, Thailand • • • • •